Chapter 1. Introduction to Data Communications

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Transcript Chapter 1. Introduction to Data Communications

Business Data Communications
and Networking
10th Edition
Jerry Fitzgerald and Alan Dennis
John Wiley & Sons, Inc
Dwayne Whitten, D.B.A
Mays Business School
Texas A&M University
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Chapter 8
Backbone Networks
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Chapter 8: Outline
• Components of Backbone networks
– Switches, Routers, Gateways
• Backbone network architectures
• The best practice backbone design
• Improving backbone performance
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Backbone Networks
• High speed networks linking an
organization’s LANs
– Making information transfer possible between
departments
– Use high speed circuits to connect LANs
– Provide connections to other backbones,
MANs, and WANs
• Sometimes referred to as
– An enterprise network
– A campus-wide network
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Backbone Network Components
• Network cable
– Functions in the same way as in LANs
– Optical fiber - more commonly chosen
because it provides higher data rates
• Hardware devices
– Computers or special purpose devices used
for interconnecting networks
• Switches
• Routers
• Gateways
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Backbone Network Devices
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Switches
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Switches
• Most switches operate at the data link
layer
• They connect two or more network
segments that use the same data link and
network protocol
• They may connect the same or different
types of cable
• These use the data link layer address to
forward packets between network
segments
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Routers
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Routers
• Operations
–
–
–
–
–
Operates at the network layer
Examines the destination address of the network layer
Strips off the data link layer packet
Chooses the “best” route for a packet (via routing tables)
Forwards only those messages that need to go to other
networks
• Compared to Switches
– Performs more processing
– Processes only messages specifically addressed to it
– Recognizes that message is specifically addressed to it
before message is passed to network layer for processing
– Builds new data link layer packet for transmitted packets
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Gateways
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Gateways
• Operate at network layer and use network
layer addresses in processing
• More complex than switches or routers
• Connect two or more networks that use
the same or different data link and
network protocols
• Some work at the application layer
• Process only those messages addressed
to them
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Other Backbone Network Devices
• Terminology in marketplace is variable by vendor
• Multiprotocol routers
– Can handle several different network layer protocols
– If receive a message in one protocol, send out same
– Can translate between TCP/IP and IPX/SPX
• Layer-3 switches
– Similar to L2 switches, but switch messages based on
network layer addresses (usually IP address)
– Have the best of both switches and routers
– Can support more simultaneously active ports than
routers
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Backbone Network Architectures
•
Identifies the way backbone interconnects
LANs
•
Manages way packets from one network
move through the backbone to other
networks
•
Three layers:
1. Access layer: used in LANs attached to BB
2. Distribution layer: connects LANs together
3. Core layer: connects different backbone
networks together in enterprise network
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Backbone Network Design Layers
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Fundamental Backbone Architectures
• Switched Backbones: most common type
of backbone, used in distribution layer,
used in new buildings, sometimes in core
layer, can be rack or chassis based.
• Routed Backbones: move packets along
backbone on basis of network layer address,
typically using bus, Ethernet 100Base-T,
sometimes called subnetted backbone
• Virtual LANs: networks in which computers are
assigned into LAN segments by software rather
than by hardware; can be single switch or
multiswitch VLANs. Very popular technology.
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Switched Backbone
Inse
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Switched Backbones
• Replaces the many routers of other designs
– Backbone has more cables, but fewer devices
– No backbone cable used; switch is the backbone.
• Advantages:
– Improved performance (200-600% higher) due to
simultaneous access of switched operations
– A simpler more easily managed network – less devices
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Rack-Mounted Switched Backbones
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Rack-Based Switched Backbones
• Places all network switch equipment physically in
one “rack” room
– Easy maintenance and upgrade
– Requires more cable, but usually small part of overall
cost
• Main Distribution Facility (MDF) or Central
Distribution Facility (CDF)
– Another name for the rack room
– Place where many cables come together
– Patch cables used to connect devices on the rack
• Easier to move computers among LANs
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Main Distribution Facility (MDF)
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Chassis-Based Switched Backbones
• Use a “chassis” switch instead of a rack
– Enables administrators to plug modules into switch
– Modules can vary in nature, router or 4-port 100Base T
switch
• Example of a chassis switch with 710 Mbps capacity
– 5 10Base-T hubs, 2 10Base-T switches (8 ports each)
– 1 100Base-T switch (4 ports), 100Base-T router
–  ( 5 x 10) + (2 x 10 x 8) + (4 x 100) + 100 = 710 Mbps
• Advantage is flexibility
– Enables users to plug modules directly into the switch
– Simple to add new modules
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Routed Backbone
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Routed Backbones
• Move packets using network layer addresses
• Commonly used at the core layer
– Connecting LANs in different buildings in the campus
– Can be used at the distribution layer as well
• LANs can use different data link layer protocols
• Main advantage: LAN segmentation
– Each message stays in one LAN; unless addressed
outside the LAN
– Easier to manage, LANs are separate entities, segments
• Main disadvantages
– Tend to impose time delays
– Require more management than switches
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Virtual LANs (VLANs)
• A new type of LAN-BN architecture
– Made possible by high-speed intelligent switches
– Computers assigned to LAN segments by software
• Often faster and provide more flexible network
management
– Much easier to assign computers to different segments
• More complex and so far usually used for larger
networks
• Basic VLAN designs:
– Single switch VLANs
– Multi-switch VLANs
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VLAN-based Backbone
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Multi-switch VLAN-Based Backbone
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How VLANs Work
• Each computer is assigned into a VLAN that has a VLAN ID
• Each VLAN ID is matched to a traditional IP subnet
• Each computer gets an IP address from that switch
• Similar to how DHCP operates
• Computers are assigned into the VLAN based on physical
port they are plugged into
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Multiswitch VLAN Operations
• Same as single switch VLAN, except uses several
switches, perhaps in core between buildings
• Inter-switch protocols
– Must be able to identify the VLAN to which the packet
belongs
• Use IEEE 802.1q (an emerging standard)
– When a packet needs to go from one switch to another
• 16-byte VLAN tag inserted into the 802.3 packet by
the sending switch
– When the IEEE 802.1q packet reaches its destination
switch
• Its header (VLAN tag) stripped off and Ethernet
packet inside is sent to its destination computer
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VLAN Operating Characteristics
• Advantages of VLANs
– Faster performance: Allow precise management of
traffic flow and ability to allocate resources to different
type of applications
– Traffic prioritization (via 802.1q VLAN tag)
• Include in the tag: a priority code based on 802.1q
• Can have QoS capability at MAC level
– Similar to RSVP and QoS capabilities at network and
transport layers
• Drawbacks
– Cost
– Management complexity
– Some “bleeding edge” technology issues to consider
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Backbone Example at Iona
Technologies, Inc.
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Best Practice Backbone Design
• Architectures
– At distribution layer  switched backbone because of
performance and cost
– At core layer  routed backbone
– VLANs closer but more costly and complex
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Recommendations for BB Design
• Best architecture
– Switched backbone or VLAN at distribution layer
– Routed backbone at core layer
• Best technology - Gigabit Ethernet
• Ideal design
– A mixture of layer-2 and layer-3 Ethernet switches
– Access Layer
• 100Base-T Later 2 switches with cat5e or cat6
– Distribution Layer
• 100base-T or 1000BaseT/F Layer 3 switches
– Core Layer
• Layer 3 switches running 10GbE or 40GbE over fiber
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Best Practice Network Design
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Best Practice BB Design
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Improving Backbone Performance
• Improve computer and device performance
– Upgrade them to faster devices
– Use faster routing protocols
• Static routing is faster for small networks
– Use gigabit Ethernet as BB (eliminate translations)
– Increase memory in devices
• Improve circuit capacity
– Upgrade to a faster circuit; Add additional circuits
– Replace shared circuit BB with a switched BB
• Reduce network demand
– Restrict applications that use a lot of network capacity
– Reduce broadcast messages (placing filters at switches)
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Implications for Management
• Amount of traffic backbone needs to support is
increasing at faster rate
– May require that BN be replaced
– Design BN to be easily upgradeable
• ATM is legacy technology
– Vendors stopping the production of these
– Begin to invest more funds to replace these
• Ethernet moving into backbone extensively
– One standard technology used for both LANs and BN
– Cost of equipment decreasing while management is
becoming easier
– Performance of Ethernet in backbone increasing quickly
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